Note
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Polar
Polar projections allow plotting polar coordinate data (e.g. angle \(\theta\) and radius r).
The full syntax for polar projections is:
Pwidth[+a][+f[e|p|radius]][+roffset][+torigin][+z[p|radius]]
Limits are set via the region
parameter
([theta_min, theta_max, radius_min, radius_max]). When using
Pwidth you have to give the width of the figure. The lower-case
version p is similar to P but expects a scale instead of
a width (pscale).
The following customizing modifiers are available:
+a: by default, \(\theta\) refers to the angle that is equivalent to a counterclockwise rotation with respect to the east direction (standard definition); +a indicates that the input data are rotated clockwise relative to the north direction (geographical azimuth angle).
+roffset: represents the offset of the r-axis. This modifier allows you to offset the center of the circle from r=0.
+torigin: sets the angle corresponding to the east direction which is equivalent to rotating the entire coordinate axis clockwise; if the +a modifier is used, setting the angle corresponding to the north direction is equivalent to rotating the entire coordinate axis counterclockwise.
+f: reverses the radial direction.
Append e to indicate that the r-axis is an elevation angle, and the range of the r-axis should be between 0° and 90°.
Appending p sets the current Earth radius (determined by PROJ_ELLIPSOID) to the maximum value of the r-axis when the r-axis is reversed.
Append radius to set the maximum value of the r-axis.
+z: indicates that the r-axis is marked as depth instead of radius (e.g. r = radius - z).
Append p to set radius to the current Earth radius.
Append radius to set the value of the radius.
import pygmt
fig = pygmt.Figure()
pygmt.config(FONT_TITLE="14p,Courier,black", FORMAT_GEO_MAP="+D")
# ============
# top left
fig.basemap(
# set map limits to theta_min = 0, theta_max = 360, radius_min = 0,
# radius_max = 1
region=[0, 360, 0, 1],
# set map width to 5 cm
projection="P5c",
# set the frame, color, and title
# @^ allows for a line break within the title
frame=["xa45f", "+gbisque+tprojection='P5c' @^ region=[0, 360, 0, 1]"],
)
fig.shift_origin(xshift="8c")
# ============
# top middle
fig.basemap(
# set map limits to theta_min = 0, theta_max = 360, radius_min = 0,
# radius_max = 1
region=[0, 360, 0, 1],
# set map width to 5 cm and interpret input data as geographic azimuth
# instead of standard angle
projection="P5c+a",
# set the frame, color, and title
# @^ allows for a line break within the title
frame=["xa45f", "+gbisque+tprojection='P5c+a' @^ region=[0, 360, 0, 1]"],
)
fig.shift_origin(xshift="8c")
# ============
# top right
fig.basemap(
# set map limits to theta_min = 0, theta_max = 90, radius_min = 0,
# radius_max = 1
region=[0, 90, 0, 1],
# set map width to 5 cm and interpret input data as geographic azimuth
# instead of standard angle
projection="P5c+a",
# set the frame, color, and title
# @^ allows for a line break within the title
frame=["xa45f", "ya0.2", "WNe+gbisque+tprojection='P5c+a' @^ region=[0, 90, 0, 1]"],
)
fig.shift_origin(xshift="-16c", yshift="-7c")
# ============
# bottom left
fig.basemap(
# set map limits to theta_min = 0, theta_max = 90, radius_min = 0,
# radius_max = 1
region=[0, 90, 0, 1],
# set map width to 5 cm and interpret input data as geographic azimuth
# instead of standard angle, rotate coordinate system counterclockwise by
# 45 degrees
projection="P5c+a+t45",
# set the frame, color, and title
# @^ allows for a line break within the title
frame=[
"xa30f",
"ya0.2",
"WNe+gbisque+tprojection='P5c+a+t45' @^ region=[0, 90, 0, 1]",
],
)
fig.shift_origin(xshift="8c", yshift="1.3c")
# ============
# bottom middle
fig.basemap(
# set map limits to theta_min = 0, theta_max = 90, radius_min = 3480,
# radius_max = 6371 (Earth's radius)
region=[0, 90, 3480, 6371],
# set map width to 5 cm and interpret input data as geographic azimuth
# instead of standard angle, rotate coordinate system counterclockwise by
# 45 degrees
projection="P5c+a+t45",
# set the frame, color, and title
# @^ allows for a line break within the title
frame=[
"xa30f",
"ya",
"WNse+gbisque+tprojection='P5c+a+t45' @^ region=[0, 90, 3480, 6371]",
],
)
fig.shift_origin(xshift="8c")
# ============
# bottom right
fig.basemap(
# set map limits to theta_min = 0, theta_max = 90, radius_min = 3480,
# radius_max = 6371 (Earth's radius)
region=[0, 90, 3480, 6371],
# set map width to 5 cm and interpret input data as geographic azimuth
# instead of standard angle, rotate coordinate system counterclockwise by
# 45 degrees, r-axis is marked as depth
projection="P5c+a+t45+z",
# set the frame, color, and title
# @^ allows for a line break within the title
frame=[
"xa30f",
"ya",
"WNse+gbisque+tprojection='P5c+a+t45+\\z' @^ region=[0, 90, 3480, 6371]",
],
)
fig.show()
Total running time of the script: ( 0 minutes 1.651 seconds)